DE2908453A1 - COLORED LIGHT EMITTERING LIGHT, IN PARTICULAR FOR VEHICLES - Google Patents

Description

2906453

Signal lamp emitting colored light, especially for vehicles

The invention relates to a colored light emitting signal lamp, in particular for vehicles in which the incandescent lamp a dome-like shaped color filter and this a colorless, a collecting optic bearing, outwardly curved Optical disk and this a colorless cover disk carrying a scattering optics in the course of the beam path of the the light emitted from the incandescent lamp is connected downstream.

The use of a color filter behind one or two crystal clear cover plates, which is usually the optical one Carrying means to achieve the desired light distribution takes place both in terms of taste and in terms of lighting technology Establish. The signal color of the lights often does not harmonize with the vehicle color or has an effect, especially with Arrangement of the signal light in or next to the headlights, as an annoying color contrast. Continue to want to use it a color filter arranged behind crystal-clear cover panes make the luminaire extraneous light, d. h., the The luminaire should not give the impression that it is switched on, especially when the sunlight is shallow.

However, both goals are only partially achieved by the known lights of the aforementioned type, because they are inclined Light rays incident into the luminaire through the front cover plate and the optical plate arranged behind it

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be deflected so that they fall through the color filter on the opposite side of the optical disc and from these are directed so that they exit the lamp again. These rays of light are as they pass through the color filter pass through, colored in the signal color, so that the lamp at least in parts of the cover plate in the signal color appears.

The object of the invention is to design and arrange the colorless optical disc located inside the luminaire in such a way that As little as possible of the light incident from outside into the lamp penetrates the optical disk, and that penetrates the optical disk penetrating part of the light is largely absorbed inside the lamp or reflected in such a way that as possible only a small part passes through the optical disk again and this small part of the light does not previously Color filter has penetrated. In addition, the collecting prisms on the colorless optical disk should be as small as possible Have focal length, so that the luminous flux emerging from the incandescent lamp is captured by the latter in a large solid angle. According to the invention, this object is achieved by using the following features:

a) the outwardly curved optical disk adjacent to the color filter extends into a flat surface in the outer areas above,

b) the optical disk adjacent to the color filter has refractive prisms in the curved area and in the plane surface Total reflection prisms,

c) the refractive prisms are arranged on the outside and the total reflection prisms on the inside of the optical disk,

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d) the distance between the color filter and the adjacent optical disc is so large that the color filter is not or protrudes only slightly beyond the plane surface into the curvature.

By designing the outer areas of the optical disk as a flat surface, the incident into the light and this Light penetrating part of the optic disk cannot be so broken that it passes through the optic disk again emerges from the luminaire. Rather, they are absorbed by the interior of the luminaire. The use of refractive prisms in the inner area of the optical disk and total reflection prisms in the outer area brings an optimal utilization of the light hitting the optical disc> The arrangement of the refractive prisms on the outside of the optical disc has the advantage that the entire luminous flux hitting the area is deflected, since the refractive prisms arranged in this way do not have any shadow areas. The arrangement of the refractive prisms an arched optical disc enables enlargement the area in which effective refractive prisms can be placed. Refractive prisms have total reflection prisms higher efficiency because the former have less reflective surface. The arrangement of the refractive prisms on a surface running at an acute angle to the optical axis is more favorable, since it is the angle between the one emerging from the bulb and hitting the prism Beam and the perpendicular of the impact surface is kept small. This results in the impact area of the Beam a lower surface reflection. For the light rays penetrating into the luminaire from the outside, this is above described angle larger, so that here a stronger surface reflection entry. In addition, the refractive prisms for the incident light from outside covers a larger area in which a total reflection takes place.

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In an advantageous development of the inventive concept, the prism adjacent to the incandescent lamp is that on the plane surface applied total reflection prisms designed so that daa incident light from the outside on the optical disk is reflected by total reflection. This avoids that light incident on this prism from outside is refracted in this way is that it falls through the color filter on the opposite prism and from here as a color signal the lamp fills.

Furthermore, it is advantageous to light the inner wall of the signal light between the two colorless optical panes, preferably silver-colored, and dark, preferably black, behind the inner lens. One Such an embodiment has the advantage that most of the light incident on this luminaire area is reflected and thus the interior of the lamp appears bright, while the light penetrating the optical disc is absorbed and therefore no longer has the option of passing through the color filter, the optical lens and the front lens exit the lamp.

In the drawing, a lamp design is shown in Figure 1, as it is known while Figure 2 shows a vertical section through a lamp according to the invention.

The known lamp shown in FIG. 1 has a crystal-clear cover plate 1 with a diffusing optic 2. In the beam path of the light 4 emerging from the incandescent lamp 3, the cover disk 1 is preceded by an optical disk 5, which on the inside having ring prisms 6 acting as collecting optics. This optical disk is curved outwards so that it Detects as large a proportion as possible of the light emerging from the incandescent lamp 3 and directs it in parallel. The smaller the focal length of the prisms 6, the closer the op-

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tic disk 5 are set up on the incandescent lamp and the greater the solid angle of the detected by the optical disk 5 Luminous flux. A color filter 7 is arranged between the optical disk 5 and the incandescent lamp 3, which filter is made from the incandescent lamp gives the signal color to the failing light. The distance between the color filter 7 and the light bulb 3 must not be too small otherwise heat will build up. However, since the optical disk is moved as close as possible to the incandescent lamp must and the color filter 7 must not have too small a distance from the incandescent lamp 3, the result is inevitably a smaller one Distance between the color filter 7 and the optics disk 5. The dome-shaped design of the optics disk 5, in particular Light 8 incident obliquely from the outside onto the optical disk 5 is deflected in such a way that it passes through the color filter 7 falls on the arranged on the opposite side prisms 6 and is directed by these so that it as Signal beam 9 emerges from the lamp. From outside Light, which is refracted according to the rays 8 and 9, leaves the lamp in spite of the two colorless panes 1 and 5 appear in the signal color.

In the case of the lamp according to FIG. 2, the lens 1 also has a scattering optics 2, and the color filter 7 is in one effective area also formed dome-shaped. The optical disk 10 is only in its central area formed arched on the outside, while the outer regions 11 are formed as a flat surface. These flat surfaces 11 are on their inside occupied with total reflection prisms 13, which the light 12 hitting them parallel or substantially align in parallel. In the outwardly curved central region of the optical disk 10, there are refractive prisms on the outside 14 arranged, which direct the light 15 impinging on them parallel or at least approximately parallel.

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The bulge of the central area of the optical disk 10 is conical in shape. Eine.solche inclination of the impingement surface 16 of the light has the advantage that the of the light beam 15 and from the perpendicular: <ur surface 16 formed Angle is small and thus the portion of light reflected from this surface is also small.

That from the outside onto the surface 11 and onto the refracting prisms 14 Striking light 17 is partly reflected on the surface and falls directly through the cover plate 1 to the outside again. The light passing through the refractive prisms 14 and total reflection prisms 13 falls through the filter disk 7 and is absorbed by the black inner surface 18 of the housing 19. Since the total reflection prisms 13 are applied to a flat surface, the The rays deflected by these prisms do not fall on another part of the optical disk 10. So that this also for the inner prism 20 of the plane surface 11 applies, this is designed like a reflector prism, so that the entire light 21 impinging on this prism from outside is reflected outwards again. This prevents the light impinging on the prism 20 from the outside is directed through the filter disk 7 onto the opposite prism 20a and exits the luminaire as a signal beam from hler. The same also applies to the outside onto the prism 20a incident light rays.

The distance between the color filter 7 and the outwardly curved inner region of the optical disk 10 is chosen so that the Color filter 7 does not extend or only insignificantly beyond the plane surface 11 into the curvature of the optical disk 10. This prevents the refractive prisms 14 refracted or reflected light, which on the opposite Inside 16 of the bulge meets, first penetrates the color filter.

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If the luminaire is made narrow and high, the There are no flat surfaces in the two lateral areas.

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Claims (3)

Patent claims: Signal lamp emitting colored light, especially for Vehicles in which the light bulb has a bulb-like shape Color filter and this a colorless, a collecting optic carrying, outwardly curved optical disc and this a colorless cover plate carrying a diffusing optic in the course of the beam path of the emerging from the incandescent lamp Is subordinate to light, characterized by the application of the following features: a) the one adjacent to the color filter (7) and gev / oiled to the outside Optical disc (10) merges into a flat surface (11) in the outer areas, b) the optical disc (10) adjacent to the color filter (7) has refractive prisms (14) and in the curved area total reflection prisms (13) in the plane surface (11), c) the refractive prisms (14) are arranged on the outside and the total reflection prisms (13) on the inside of the optical disk (10), d) the distance between the color filter (7) and the adjacent optical disc (10) is so large that the color filter not or only slightly beyond the plane surface (11) protrudes into the curvature. 2. Signal light according to claim 1,
characterized, that the incandescent lamp (3) adjacent prism (20) der.Totalreflexionsprismen (13) is designed so that the whole incident from the outside onto the optical disk (10) Light (21) is reflected by total reflection. 030037/0224 BATH ORIGINAL 2SQ8453 3. Signal light according to claim 1 or 2, characterized in that that the inner wall (18) of the signal light between the two colorless Optikschexben (1 and 10) bright, preferably silver-colored, and dark, preferably black, behind the inner optical disc (10). 030 037/0224 BAD ORIGINAL